Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0031154 (peritonitis)
15,372 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A novel series of N-[(2-benzothiazolylthio)alkyl]-N'-hydroxyurea derivatives (9-25) was synthesized and evaluated for biological activity as inhibitors of 5-lipoxygenase both in vivo (mouse zymosan peritonitis assay) and in vitro (Ca2+ ionophore-stimulated human peripheral blood leukocyte model). The compounds of this series were based on the corresponding hydroxamic acid derivatives (1, 3, 4, and 5) which were moderately active in vitro but inactive in vivo. A number of compounds in the hydroxyurea series exhibited oral activity for 5-lipoxygenase inhibition. Results of studies relating structure to in vivo and in vitro 5-lipoxygenase activity are reported.
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PMID:Benzothiazole hydroxy ureas as inhibitors of 5-lipoxygenase: use of the hydroxyurea moiety as a replacement for hydroxamic acid. 132 17

Mast cells are secretory cells strategically located in the vicinity of blood vessels where they can readily initiate and modulate various inflammatory processes, including plasma exudation and leukocyte infiltration. We have previously shown that 50% of the neutrophil influx during immune complex peritonitis in mice is due to mast cells. Eicosanoids are important mediators of various inflammatory processes including neutrophil infiltration. The possibility that mast cells are essential for the production of leukotrienes (LT) involved in the elicitation of neutrophils in immune complex peritonitis was investigated in mast cell-deficient, WBB6F1-W/WV, and normal, WBB6F(1-)+/+, mice. The time course and amounts of immunoreactive PGE2, 6-keto-PGF1 alpha, and TX3B2 released into the peritoneal exudates were similar in both sets of mice. LTB4 and LTC4 levels, however, were twofold higher in +/+ than in W/WV mice 2 h after stimulation. HPLC analysis of the peritoneal exudate confirmed the presence of leukotrienes. The 5-lipoxygenase inhibitor A-63162 blocked leukotriene production in a dose-dependent manner in both sets of mice. However, this compound caused a significant reduction (60%) of neutrophil infiltration only in WBB6F(1-)+/+ but not in the mast cell-deficient mice. Mast cell reconstitution of WBB6F1-W/WV mice restored the effect of A-63162 on PMN recruitment. These data suggest that mast cells in the vicinity of blood vessels are important for the synthesis of leukotrienes responsible for PMN recruitment.
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PMID:Mast cells are critical for the production of leukotrienes responsible for neutrophil recruitment in immune complex-induced peritonitis in mice. 188 Apr 19

The effects of SK&F 105809, 6,7,-dihydro-2-[4(methylsulfinyl) phenyl]-3-(4-pyridyl) -5[H]-pyrrolo[1,2-a] imidazole, on eicosanoid metabolism, inflammatory responses, algesia and ulcer formation are described. SK&F 105809 was determined to be a prodrug for the sulfide metabolite SK&F 105561 which is an inhibitor of 5-lipoxygenase (5-LO) and prostaglandin H (PGH) synthase activities seen with both the isolated enzyme (IC50S 3 microM) and human monocyte production of the eicosanoids leukotriene B4 (LTB4, IC50 1.0 microM) and prostaglandin E2 (PGE2, IC50 0.1 microM). In-vivo conversion of SK&F 105809 to the active principle SK&F 105561 was observed in both mice and rats. SK&F 105809 inhibited LTB4 and PGE2 production in vivo in inflammatory exudates as well as the production of LTB4 and thromboxane B2 (TxB2) ex vivo in rat blood. SK&F 105809 inhibited oedema and inflammatory-cell infiltration in arachidonic acid-induced inflammation in the mouse ear and rat paw as well as in carrageenan- and monosodium urate crystal-induced peritonitis. SK&F 105809 was also effective in inhibiting mouse collagen-induced arthritis and associated acute-phase reactant protein. At the same time, these acute and chronic models of inflammation were found to be resistant to the action of selective cyclooxygenase inhibitors such as naproxen. In addition, SK&F 105809 possessed analgesic activity in phenylquinone-induced abdominal constriction assay and inhibited indomethacin-induced ulcers.
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PMID:Pharmacological profile of SK&F 105809, a dual inhibitor of arachidonic acid metabolism. 212 65

From 1975 to 1987, we had 56 patients of septic shock in the Department of Surgery. Multiple organ failure occurred in many septic patients. Glucocorticoids inhibited the secretion of chemical mediators (histamine, serotonin and bradykinin) and then prevented septic shock. Intravenous administration of dexamethasone showed no change in amounts of leukotrienes (LTC4, LTD4, LTE4) in venous blood in peritonitis rats. Dexamethasone treatment of septic rats corrected FDP and nearly normalized PEP values. When glucocorticoid was given intravenously at the time of cecal incision, PFKase, PKase, G6Pase and PEPCK were stimulated, respectively. Protease inhibitor FUT-175 was infused in 5% dextrose (0.1mg/ml/hr) in septic rats. Survival time was 12.1 +/- 2.3 hour in FUT-175 group and 6.6 +/- 1.1 hr without FUT-175. In FUT-175 injected rats G6P decreased by 20%, FDP increased 50% and lactate doubled. PEP levels increased 30% above peritonitis values. The amounts of leukotrienes (LTC4, LTD4, LTE4) in venous blood were gradually decreased by pretreatment with the specific 5-lipoxygenase inhibitor AA-861 after peritonitis. Specific treatments in septic shock should be instituted administration of glucocorticoid, antibiotics, protease inhibitor and lipoxygenase inhibitor. The importance of septic shock as a factor contributing to organ failure must be acknowledge. We believe that the prompt and efficacious treatment of septic shock is the best therapy.
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PMID:[Effects of anti-toxic agents in septic shock]. 258 23

Macrophages, isolated from dialysis fluid of three patients with continuous ambulatory peritoneal dialysis (CAPD) at different times during peritonitis were labelled with 14C-arachidonic acid and stimulated with the calcium ionophore A23187. The main metabolites formed by 5-lipoxygenase activity were leukotriene B4 (LTB4) and 5-hydroxy-6, 9, 11, 14-eicosatetraenoic acid (5-HETE). Smaller amounts of cyclooxygenase metabolites were present and also a major compound with an elution time between 6-keto-prostaglandin F1 alpha (6-keto-PGF1 alpha) and thromboxane B2 (TxB2). This substance was isolated, analyzed by GC-MS and identified as 20-hydroxy-leukotriene B4 (20-OH-LTB4). This indicates that human peritoneal macrophages obtained from CAPD not only produce leukotrienes and prostaglandins, but also the omega-hydroxylase product of LTB4, which has been demonstrated to be present in polymorphonuclear leucocytes. The activity of this enzyme was not correlated with the severity of the peritonitis.
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PMID:Formation of leukotriene B4, 20-hydroxy leukotriene B4 and other arachidonic acid metabolites by macrophages during peritonitis in patients with continuous ambulatory peritoneal dialysis. 303 32

Two series of novel bishydroxamic acids 2 and 3 (types A and B) were synthesized and tested for inhibition of 5-lipoxygenase from rat basophile leukemia (RBL) cells. Both series were potent inhibitors of the isolated enzyme but only the type B reverse hydroxamic acids possessed significant oral activity. The most potent compound, orally, was 3a, [IC50 = 270 nM; ED50 = 1.86 mg/kg], which compares favorably with the clinically useful 5-lipoxygenase inhibitor, zileuton. Unlike known hydroxamic acid inhibitors, the oral activity in this series appears to be associated with the second hydroxamic acid group. The corresponding monohydroxamic acids retained inhibitor potency, in vitro, with reduced oral activity in a mouse zymosan peritonitis model. Compound 4e [IC50 = 7 nM], a monohydroxamic acid derivative related to 3a, is among the most potent inhibitors of the isolated enzyme yet to be reported.
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PMID:Novel bishydroxamic acids as 5-lipoxygenase inhibitors. 792 31

Leukotrienes are potent inflammatory mediators synthesized from arachidonic acid (AA) predominately by cells of myeloid origin. The synthesis of these lipids is believed to be dependent not only on the expression of the enzyme 5-lipoxygenase (5-LO), which catalyzes the first steps in the synthesis of leukotrienes, but also on expression of a nuclear membrane protein termed the 5-LO-activating protein (FLAP). To study the relationship of these two proteins in mediating the production of leukotrienes in vivo and to determine whether the membrane protein FLAP has additional functions in various inflammatory processes, we have generated a mouse line deficient in this protein. FLAP-deficient mice develop normally and are healthy. However, an array of assays comparing inflammatory reactions in FLAP-deficient mice and in normal controls revealed that FLAP plays a role in a subset of these reactions. Although examination of DTH and IgE-mediated passive anaphylaxis showed no difference between wild-type and FLAP-deficient animals, mice without FLAP possessed a blunted inflammatory response to topical AA and had increased resistance to platelet-activating factor-induced shock compared to controls. Also, edema associated with Zymosan A-induced peritonitis was markedly reduced in animals lacking FLAP. To determine whether these differences relate solely to a deficit in leukotriene production, or whether they reflect an additional role for FLAP in inflammation, we compared the FLAP-deficient mice to 5-LO-deficient animals. Evaluation of mice lacking FLAP and 5-LO indicated that production of leukotrienes during inflammatory responses is dependent upon the availability of FLAP and did not support additional functions for FLAP beyond its role in leukotriene production.
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PMID:Role of the 5-lipoxygenase-activating protein (FLAP) in murine acute inflammatory responses. 909 80

Arachidonic acid metabolism by 5-lipoxygenase leads to production of the potent inflammatory mediators, leukotriene (LT) B4 and the cysteinyl LT. Relative synthesis of these subclasses of LT, each with different proinflammatory properties, depends on the expression and subsequent activity of LTA4 hydrolase and LTC4 synthase, respectively. LTA4 hydrolase differs from other proteins required for LT synthesis because it is expressed ubiquitously. Also, in vitro studies indicate that it possesses an aminopeptidase activity. Introduction of cysteinyl LT and LTB4 into animals has shown LTB4 is a potent chemoattractant, while the cysteinyl LT alter vascular permeability and smooth muscle tone. It has been impossible to determine the relative contributions of these two classes of LT to inflammatory responses in vivo or to define possible synergy resulting from the synthesis of both classes of mediators. To address this question, we have generated LTA4 hydrolase-deficient mice. These mice develop normally and are healthy. Using these animals, we show that LTA4 hydrolase is required for the production of LTB4 in an in vivo inflammatory response. We show that LTB4 is responsible for the characteristic influx of neutrophils accompanying topical arachidonic acid and that it contributes to the vascular changes seen in this model. In contrast, LTB4 influences only the cellular component of zymosan A-induced peritonitis. Furthermore, LTA4 hydrolase-deficient mice are resistant to platelet-activating factor, identifying LTB4 as one mediator of the physiological changes seen in systemic shock. We do not identify an in vivo role for the aminopeptidase activity of LTA4 hydrolase.
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PMID:Determination of the contribution of cysteinyl leukotrienes and leukotriene B4 in acute inflammatory responses using 5-lipoxygenase- and leukotriene A4 hydrolase-deficient mice. 1058 81

Leukotriene B(4) (LTB(4)) is an easily diffusible proinflammatory chemotactic factor that has been posited to prime the initial inflammatory response for the action of other mediators, including C5a. 5-Lipoxygenase-deficient (5LX(-/-)) and C5-deficient mice only generated about 50% as much peritoneal leukocytosis as wild-type mice following intraperitoneal (IP) challenge with the sterile irritant, thioglycollate (P<0.005). Pretreatment of C5- mice with the specific 5-lipoxygenase inhibitor, zileuton, reduced peritoneal leukocytosis to almost unstimulated levels, suggesting that LTB(4) can act independently of C5a. Previously, LTB(4) and C5a have been shown in vitro to be inactivated by metabolites of superoxide. In the current study, we examined the fate of LTB(4) in the p47(phox-/-) mouse model of chronic granulomatous disease (CGD) in which the phagocyte NADPH oxidase is unable to produce superoxide. p47(phox-/-) mice generated more thioglycollate-elicited peritoneal leukocytosis than wild-type mice. Pretreatment with zileuton caused a 76% reduction in peritoneal leukocytosis in p47(phox-/-) mice (P<0.005) and a 54% reduction in wild-type mice (P<0.05), whereas pretreatment with dexamethasone or toradol (a cyclooxygenase inhibitor) had no effect. Following IP LTB(4) (1 microg/mouse), total recovered peritoneal LTB(4) was similar between p47(phox-/-) and wild-type mice at 10 and 30 min, but was approximately fivefold greater in p47(phox-/-) mice at 180 min. These data suggest that LTB(4) and C5a have separate but overlapping roles in thioglycollate-elicited peritonitis, and at least the leukotriene component is, in turn, regulated by reactive oxidants.
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PMID:Thioglycollate peritonitis in mice lacking C5, 5-lipoxygenase, or p47(phox): complement, leukotrienes, and reactive oxidants in acute inflammation. 1186 78

The 5-lipoxygenase (5-LO)-derived leukotrienes (LTs) influence both local innate immunity and vascular responses, but the relative importance of effects on these two processes in sepsis is unknown. In a cecal ligation and puncture model of peritonitis with severe sepsis, 5-LO(-/-) mice showed a reduction in peritoneal neutrophil accumulation and an increase in the number of bacteria in the peritoneal cavity. Despite this impairment of local innate immunity, the null mice exhibited a marked improvement in survival, and this protection was also seen in wild-type animals treated with the LT synthesis inhibitor MK 886. A survival advantage in severe sepsis was also observed in mice treated with the cysteinyl-LT receptor antagonist MK 571, but not with the LTB(4) receptor antagonist CP 105, 696. Protection in the 5-LO(-/-) mice was associated with reduced vascular leak and serum lactate levels. Moreover, wild-type mice treated with MK 571 exhibited less sepsis-induced hypotension. These data demonstrate opposing effects of cysteinyl-LTs on innate immune vs hemodynamic responses, demonstrating protective effects on local immunity and deleterious effects on the vasculature. They also suggest the possible therapeutic utility of targeting vascular events in sepsis with cysteinyl-LT blockade.
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PMID:Opposing and hierarchical roles of leukotrienes in local innate immune versus vascular responses in a model of sepsis. 1566 24


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